Numerical simulation of bubble dynamics: Lattice-Boltzmann approach

In the present work, the FlowLab code, based on the D2Q9 lattice-Boltzmann model for two-phase flow is employed to simulate the bubble dynamics in different flow regimes. Firstly, the capability of the lattice-Boltzmann method to simulate the two-phase flow is examined. Then, the coalescence behavior of bubbles generated on a horizontal surface is simulated, two different coalescence regimes are identified, which are related to mechanism of two-phase flow transition under boiling conditions. Finally, the Taylor bubble dynamics in a narrow channel is simulated by present LB method, the simulation results agree qualitatively well with analytical solutions and experimental observations.